A concrete block A is kept from moving down a plane inclined at an angle, 0, 35° from the horizontal by a 15.0-kg metal ball B attached to the block by a cable wire through a pulley as shown in Fig 11. A B Figure 11. Concrete block being held in place by a metal ball connected by a wire through a pulley. |(a) Create an FBD around the metal ball and determine the tension in the cable wire. |(b) What is the magnitude of the normal force Nacting on block A? (c) What mass of the concrete block A, in kg, is required to keep the meal ball B in place? G|UST

A concrete block A is kept from moving down a plane inclined at an angle, 0, 35° from the horizontal by a 15.0-kg metal ball B attached to the block by a cable wire through a pulley as shown in Fig 11. A B Figure 11. Concrete block being held in place by a metal ball connected by a wire through a pulley. |(a) Create an FBD around the metal ball and determine the tension in the cable wire. |(b) What is the magnitude of the normal force Nacting on block A? (c) What mass of the concrete block A, in kg, is required to keep the meal ball B in place? G|UST

Name: SAMPLE PROBLEM 3 (equilibrium analysis of systems involving pulleys)A
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Description: SAMPLE PROBLEM 3 (equilibrium analysis of systems involving pulleys)A concrete block A is kept from moving down a plane inclined at an angle, 0, 35° from thehorizontal by a 15.0-kg metal ball B attached to the block by a cable wire through a pulleya

College Physics

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ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

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SAMPLE PROBLEM 3 (equilibrium analysis of systems involving pulleys)
A concrete block A is kept from moving down a plane inclined at an angle, 0, 35° from the
horizontal by a 15.0-kg metal ball B attached to the block by a cable wire through a pulley
as shown in Fig 11.
A
B
Figure 11. Concrete block being held in place by a metal ball connected by a wire through a pulley.
|(a) Create an FBD around the metal ball and determine the tension in the cable wire.
|(b) What is the magnitude of the normal force Nacting on block A?
(c) What mass of the concrete block A, in kg, is required to keep the meal ballI B in place?

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